A generative model for separating illumination and reflectance from images

Inna Stainvas; David Lowe

A generative model for separating illumination and reflectance from images

Inna Stainvas^*, David Lowe

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

It is well known that even slight changes in nonuniform illumination lead to a large image variability and are crucial for many visual tasks. This paper presents a new ICA related probabilistic model where the number of sources exceeds the number of sensors to perform an image segmentation and illumination removal, simultaneously. We model illumination and reflectance in log space by a generalized autoregressive process and Hidden Gaussian Markov random field, respectively. The model ability to deal with segmentation of illuminated images is compared with a Canny edge detector and homomorphic filtering. We apply the model to two problems: synthetic image segmentation and sea surface pollution detection from intensity images.

Original language	English
Pages (from-to)	1499-1519
Number of pages	21
Journal	Journal of Machine Learning Research
Volume	4
Issue number	7-8
Publication status	Published - Dec 2003

Bibliographical note

Copyright of the Massachusetts Institute of Technology Press (MIT Press)

Keywords

general autoregressive model
iIllumination
Potts model
reflectance
segmentation

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title = "A generative model for separating illumination and reflectance from images",

abstract = "It is well known that even slight changes in nonuniform illumination lead to a large image variability and are crucial for many visual tasks. This paper presents a new ICA related probabilistic model where the number of sources exceeds the number of sensors to perform an image segmentation and illumination removal, simultaneously. We model illumination and reflectance in log space by a generalized autoregressive process and Hidden Gaussian Markov random field, respectively. The model ability to deal with segmentation of illuminated images is compared with a Canny edge detector and homomorphic filtering. We apply the model to two problems: synthetic image segmentation and sea surface pollution detection from intensity images.",

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AU - Lowe, David

N1 - Copyright of the Massachusetts Institute of Technology Press (MIT Press)

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N2 - It is well known that even slight changes in nonuniform illumination lead to a large image variability and are crucial for many visual tasks. This paper presents a new ICA related probabilistic model where the number of sources exceeds the number of sensors to perform an image segmentation and illumination removal, simultaneously. We model illumination and reflectance in log space by a generalized autoregressive process and Hidden Gaussian Markov random field, respectively. The model ability to deal with segmentation of illuminated images is compared with a Canny edge detector and homomorphic filtering. We apply the model to two problems: synthetic image segmentation and sea surface pollution detection from intensity images.

AB - It is well known that even slight changes in nonuniform illumination lead to a large image variability and are crucial for many visual tasks. This paper presents a new ICA related probabilistic model where the number of sources exceeds the number of sensors to perform an image segmentation and illumination removal, simultaneously. We model illumination and reflectance in log space by a generalized autoregressive process and Hidden Gaussian Markov random field, respectively. The model ability to deal with segmentation of illuminated images is compared with a Canny edge detector and homomorphic filtering. We apply the model to two problems: synthetic image segmentation and sea surface pollution detection from intensity images.

KW - general autoregressive model

KW - iIllumination

KW - Potts model

KW - reflectance

KW - segmentation

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EP - 1519

JO - Journal of Machine Learning Research

JF - Journal of Machine Learning Research

IS - 7-8

ER -

A generative model for separating illumination and reflectance from images

Abstract

Bibliographical note

Keywords

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